WO2002033798B1

WO2002033798B1 - Amalgam of shielding and shielded energy pathways and other elements for single or multiple circuitries with common reference node

Info

Publication number: WO2002033798B1
Application number: PCT/US2001/032480
Authority: WO
Inventors: Anthony W William
Original assignee: X2Y Attenuators Llc; Anthony W William
Priority date: 2000-10-17
Filing date: 2001-10-17
Publication date: 2002-07-11
Also published as: AU2002213356B2; WO2002033798A1; US20050248900A1; US7224564B2; IL155402A0; EP1334542A4; US7433168B2; EP1334542A2; JP2004522295A; KR100536511B1; KR20030057541A; US20020079116A1; CA2425946A1; US20040085699A1; CN1481603A; AU1335602A

Abstract

A predetermined single electrode shielding set (800e) for groupings of complementary electrodes that are operable to shield and that together are selectively formed or amalgamated into a predetermined sequential combination of commonly configured energy pathways operable for shielding various paired complementary electrodes (855) and other predetermined elements that result in an electrode architecture practicable to provide multiple energy conditioning functions.

Claims

59AMENDED CLAIMS[received by the International Bureau on 13 May 2002 (13.05.02); original claims 1-40 replaced by amended claims 1-40 (13 pages)]

1. An amalgam comprising; a complementary means for conditioning one circuit; a complementary means for conditioning one other circuit; a means for shielding; and wherein said means for shielding is operable to shield said complementary means for conditioning one circuit from said complementary means for conditioning one other circuit.

2. An amalgam comprising; an isolated means for opposing energies of one circuit; an isolated means for opposing energies of another circuit; a means for shielding; and wherein said means for shielding is operable to at least shield said isolated means for opposing energies of one circuit from said isolated means for opposing energies of another circuit.

3. An amalgam comprising; a means for opposing shielded energies of one circuit; a means for opposing shielded energies of another circuit; 60

a means for shielding; and wherein said means for shielding is operable to at least shield said means for opposing shielded energies of one circuit from said means for opposing shielded energies of another circuit

4. An amalgam comprising; a means for conditioning energies of a portion of a first isolated circuit; a means for conditioning energies of a portion of a second isolated circuit; a means for shielding; and wherein the means for shielding is operable to at least shield said portion of said first isolated circuit from said portion of said second isolated circuit.

5. The amalgam of claim 1, wherein the means for shielding is a plurality of electrically coupled electrodes of substantially the same size and shape.

6. The amalgam of claim 2, wherein the means for shielding is a plurality of electrically coupled electrodes of substantially the same size and shape. 61

7. The amalgam of claim 3, wherein the means for shielding is a

plurality of electrically coupled electrodes of substantially the same size and

shape.

8. The amalgam of claim 4, wherein the means for shielding is a plurality of electrically coupled electrodes of substantially the same size and

shape.

9. The amalgam of claim 1 , wherein said means for shielding, said complementary means for conditioning one circuit, and said complementary means for conditioning one other circuit are spaced apart from one another by a material with predetermined properties.

10. The amalgam of claim 2, wherein said means for shielding, said isolated means for opposing energies of one circuit, and said isolated means for opposing energies of another circuit are spaced apart from one another by a material with predetermined properties.

11. The amalgam of claim 3, wherein said means for shielding, said means for opposing shielded energies of one circuit, and said means for opposing shielded energies of another circuit are spaced apart from one another by a material with predetermined properties. 62

12. The amalgam of claim 4, wherein said means for shielding, said portion of said first isolated circuit, and said portion of said second isolated circuit are spaced apart from one another by a material with predetermined properties.

13. The amalgam as in one of claims 9-12, in which the means for shielding is a plurality of electrically coupled electrodes of substantially the same size and shape.

14. The amalgam as in any of claims 1-4 or 9-12, in which the means for shielding is a plurality of electrodes of substantially the same size and shape that are electrically coupled to one another, and wherein the plurality of electrodes is practicable to function like a faraday cage; and wherein the amalgam is at least electrically coupled to a portion of an integrated circuit.

15. The amalgam as in one of claims 1-12, in which the amalgam is operable as a capacitor array.

16. The amalgam as in one of claims 1-12, in which the means for shielding is practicable to function like a faraday cage.

17. The amalgam as in one of claims 1-12, in which the amalgam is operable as an energy conditioner.

18. The amalgam as in one of claims 1-12, in which the amalgam is operable as a multi-layer energy conditioning array.

19. The amalgam as in one of claims 1-12, in which the amalgam is annular shaped.

20. The amalgam as in one of claims 1-12, in which the amalgam further comprises at least one via.

21. A circuit amalgam comprising; a first and a second circuit operable electrically isolated from each other;

a plurality of common electrodes that are electrically coupled to one another; a first and a second energy source; a first and a second load; wherein the first circuit is operable as a pathway for propagation of energy portions of the first energy source to the first load and then returning a portion of said energy portions of the first energy source to said first energy source; 64

wherein the second circuit is operable as a pathway for propagation of energy portions of the second energy source to the second load and then returning a portion of said energy portions of the second energy source to said second energy source; wherein the plurality of common electrodes shields at least portions of the first and the second circuit both individually and from one another; and wherein at least the first circuit and the plurality of common electrodes are electrically isolated from each other.

22. An amalgam comprising; a common energy pathway structure; a first plurality of energy pathways including; a first energy pathway electrically coupled from a first energy source to at least an input of a first energy-utilizing load; a second energy pathway electrically coupled from an output of the first energy-utilizing load to at least a return of the first energy source;

a third energy pathway electrically coupled from a second energy source to at least an input of a second energy-utilizing load; a fourth energy pathway electrically coupled from an output of the second energy-utilizing load to at least a return of the second energy source; 65

wherein mutual complementary portions of the first and the second energy pathways are simultaneously shielded individually and from one another by said common energy pathway structure, and wherein mutual

complementary portions of the third and fourth energy pathways are simultaneously shielded individually and from one another by said common energy pathway structure; and wherein at least said mutual complementary portions of the first and the second energy pathways are shielded from said mutual complementary portions of the third and the fourth energy pathways by said common energy pathway structure.

23. The circuit amalgam of claim 21 , further comprising at least two line to line capacitors.

24. A method of conditioning energy portions of at least two circuits utilizing portions of an electrode arrangement and comprising the following steps;

providing an electrode arrangement having at least a plurality of conductive portions including a first, a second, a third, a fourth, a fifth and a sixth conductive portion; providing at least two circuits, and wherein each circuit of the at least two circuits further comprises, a respective energy source, a respective load, and a respective pair of energy pathways, and wherein each energy pathway 66

of the respective pair of energy pathways is electrically coupled to only one of two of the opposite sides of the respective energy source and the respective load; electrically coupling at least the first and the second conductive portion to an electrically isolated pathway operable as a voltage reference; electrically coupling a first and a second energy pathway of a pair of energy pathways of a first circuit of the at least two circuits to the third and the fourth conductive portions, respectively; electrically coupling a first and a second energy pathway of a pair of energy pathways of a second circuit of the at least two circuits to the fifth and sixth conductive portions, respectively; and wherein energizing at least one circuit of the two circuits allows the electrically isolated pathway operable as a voltage reference to be utilized by said at least one circuit of the two circuits.

25. An electrode arrangement comprising; a plurality of shield electrodes that are electrically coupled and aligned superposed to one another; a first pair of two electrodes that are each electrically isolated from the plurality of shield electrodes and each other; a second pair of two electrodes that are each electrically isolated from the plurality of shield electrodes and each other; and 67

wherein the first and the second pair of two electrodes are electrically isolated from each other.

26. An electrode arrangement comprising; a plurality of common electrodes that are electrically coupled to one another; a first set of electrodes having at least four electrodes, and wherein the four electrodes of said first set of electrodes are electrically isolated from one another; a second set of electrodes having at least four electrodes, and wherein the four electrodes of said second set of electrodes are electrically isolated from one another; wherein the first and the second set of electrodes are interspersed and at least partially sandwiched between the plurality of common electrodes; and wherein the first set of electrodes, the second set of electrodes, and the plurality of common electrodes are electrically isolated from one another.

27. The electrode arrangement of claim 26, wherein each common electrode of the plurality of common electrodes is aligned superposed; and wherein the plurality of common electrodes is operable as a shielding structure.

28. An electrode arrangement comprising; 68

a plurality of common electrodes including a first, a second, a third, a fourth and a fifth common electrode, and wherein all common electrodes of said plurality are aligned superposed and electrically coupled to one another; a plurality of electrodes including a first, a second, a third, and a fourth electrode, and wherein said first, said second, said third, and said fourth electrode are electrically isolated from one another; wherein the first and the second common electrode sandwich the first electrode, and wherein the second and the third common electrode sandwich the second electrode, and wherein the third and the fourth common electrode sandwich the third electrode, and wherein the fourth and the fifth common electrode sandwich the fourth electrode; and wherein the plurality of common electrodes are operable together as a shielding structure of the plurality of electrodes.

29. A minimal stacking sequence of electrodes that includes at least a first, a second, a third, a fourth, a fifth, a sixth, a seventh, an eighth, and a ninth electrode; wherein the first, the third, the fifth, the seventh and the ninth electrode are arranged to form an electrically coupled plurality of superposed electrodes;

wherein the second, the fourth, the sixth and the eighth electrode are arranged electrically isolated from one another and said plurality of superposed electrodes; 69

wherein the second and the fourth electrode are arranged in a first mutually opposite orientation position relative to each other, and wherein the sixth and the eighth electrode are arranged in a second mutually opposite orientation position relative to each other; and wherein the second and the fourth electrode are arranged rotated at least ninety degrees away from a positioned arrangement of the sixth and the eighth electrode relative to said plurality of superposed electrodes.

30. The electrode arrangement of claim 25, wherein plurality of shield electrodes is practicable to function like a faraday cage.

31. The electrode arrangement of claim 25, wherein any one shield electrode of the plurality of shield electrodes is larger than any one electrode of either the first or the second pair of electrodes.

32. The electrode arrangement of claim 25, wherein each electrode of the first pair of electrodes is of substantially the same size and shape as a corresponding electrode of the second pair of electrodes.

33. The electrode arrangement of claim 25, in which the first and the second pair of electrodes and the plurality of shield electrodes are spaced apart from one another by at least a material having predetermined electrical properties. 70

34. The electrode arrangement of claim 26, wherein each common electrode of the plurality of common electrodes is in alignment superposed with every other common electrode of the plurality of common electrodes.

35. The electrode arrangement of claim 26, wherein plurality of common electrodes is practicable to function like a faraday cage.

36. The electrode arrangement of claim 26, wherein any one common electrode of the plurality of common electrodes is larger than any one electrode of either the first or the second set of electrodes.

37. The electrode arrangement as in any one of claims 26, 27, or 34-36 inclusive, in which each electrode of the first set of electrodes is of substantially the same size and shape as a corresponding electrode of the second set of electrodes.

38. The electrode arrangement as in any one of claims 26, 27, or 34-36 inclusive, in which the first and the second set of electrodes and the plurality of common electrodes are spaced apart from one another by at least a material having predetermined electrical properties. 71

39. The electrode arrangement as in any one of claims 26, 27, or 34-36 inclusive, in which the first and the second set of electrodes and the plurality of common electrodes are spaced apart from one another by at least a material having at least one predetermined electrical property; and wherein said material is selected from a group consisting of a material having at least a ferrite property, a material having at least a dielectric property and a material having at least a varistor property.

40. The electrode arrangement as in any one of claims 26, 27, 28 or 30-36 inclusive, in which the electrode arrangement is electrically coupled to an integrated circuit.

72

STATEMENT UNDER ARTICLE 19(1)

It is believed that the claims of the invention as now presented define over the prior art of record and that discovered as a result of the International Search Report. Care was exercised by Applicant's attorney to make certain that these amendments did not go beyond the disclosure of the international application as filed. The amended claims are thought to more clearly define the elements of the present invention and are fully supported in the specification of the application as filed.

Applicant's attorney further believes that the search performed by the examiner is sufficient to cover these amended claims.